Keysight U381xA Advanced IoT Teaching Lab Solution

Keysight U381xA advanced IoT teaching lab solution

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Benefits of the Keysight Keysight U381xA Teaching Material Collection

Complete teaching material for the subject area IoT.
Comprehensive training kits with lab sheets and slides (depending on the variant).
Engineering-oriented learning on practical tasks.

Keysight U381xA Advanced IoT Teaching Lab Solution

The Keysight U381xA series is a complete IoT, remote-ready learning ecosystem for students

Model Overview

Module 1: IoT System Design and Validation Fundamentals

Model	Description
U3813A	IoT System Design and Validation Fundamentals applied courseware, with training kit and lab
U3814A	IoT System Design and Validation Fundamentals applied courseware, with training kit, lab, and teaching slides
Specifications
Learning outcomes	Students will: Demonstrate the understanding of IoT's architecture, technologies, standards, wireless protocols, applications, and ecosystems. Design and develop an IoT-enabled embedded system. Configure IoT systems end to end. Set up WLAN, Bluetooth LE, and Zigbee wireless connectivity. Evaluate I/O signals and perform current drain measurements using industrial-grade test and measurement instruments. Understand some device cybersecurity fundamentals.
Training kit	Lab sheets (Microsoft Word) and model answers. Problem-based learning assignments. Covers 50+ hours of lab sessions.
Teaching slides (U3814A only)	Editable Microsoft PowerPoint slides. Covers 75+ hours of classroom sessions.
Recommended instruments	▸34465A 6½ digit digital multimeter. ▸DSOX1204G oscilloscope, 70/100/200 MHz, 4 analog channels.
U3810REM	Add Remote Teaching Option for U3810A Advanced IoT Series

Module 2: IoT Wireless Communication and Compliance

Model	Description
U3815A	IoT Wireless Communication and Compliance applied courseware, with training kit and lab
U3816A	IoT Wireless Communication and Compliance applied courseware, with training kit, lab and teaching slides
Specifications
Learning outcomes	Students will: Learn basic of IoT System Design and Validation Fundamentals. Understand the modulation and protocols of the BLE, Zigbee, WLAN and LoRa physical layers. Understand conformance and compliance testing requirements and methods. Learn how to use design validation, pre-conformance and pre-compliance testing to identify and mitigate potential problems. Understand cybersecurity fundamentals in radio communication at device/network level. Learn how to protect an IoT device and network using advanced topics in device cybersecurity. Note: The LoRa and Zigbee setup will be in wired mode.
Training kit	IoT development kit. IoT sensor devices. XBee Zigbee kit. Lab sheets (Microsoft Word) and model answers. Problem-based learning assignments
Teaching slides (U3816A only)	Editable Microsoft PowerPoint slides. Covers 90+ hours of classroom sessions.
Recommended instruments and software	on request
U3810REM	Add Remote Teaching Option for U3810A Advanced IoT Series

Module 3: IoT Precision Power Measurement and MEMS Sensors

Model	Description
U3817A	Precision Power Measurement and MEMS sensors applied courseware, with training kit and lab
U3818A	Precision Power Measurement and MEMS sensors applied courseware, with training kit, lab and teaching slides
Specifications
Learning outcomes	Students will: Learn basic of IoT System Design and Validation Fundamentals. Understand sensor selection. Evaluate the performance of commonly used sensor modules. Understand the design considerations in IoT applications (power management). Characterize the power consumption of IoT devices and sub-circuits using industrial-grade test and measurement instruments. Learn about the use of solar energy harvesting and battery charging. Perform battery life analysis with battery drain and analysis software.
Training kit	IoT development kit. IoT sensor devices. XBee Zigbee kit. Lab sheets (Microsoft Word) and model answers. Problem-based learning assignments. Covers 75+ hours of lab sessions.
Teaching slides (U3818A only)	Editable Microsoft PowerPoint slides. Covers 90+ hours of classroom sessions.
Recommended instruments and software	▸34465A 6½ digit digital multimeter (with options DIG + MEM + 34138A). ▸DSOX1204G oscilloscope, 70/100/200 MHz, 4 analog channels. ▸N6705C mModular DC power analyzer, 600 W, 4 slots. ▸N6781A 2-quadrant SMU/source measure unit for battery drain analysis, required 2 units in the coursewar.e X8712AD event based detector. KS833A2A PathWave Event Based Power Analysis, node locked, subscription license.

Agilent's Electronic Measurement Group is now Keysight Technologies.